DE2901615A1 - Solar energy collector - having conical collector surface - Google Patents

Abstract

Radiant energy from the sun is collected in a collector system in the form of a conical reflector surface. A coil is mounted up the axis of the reflector through which a heat transfer medium is passed. The radiant solar energy is reflected onto the coil and thereby heats up the liq. in it. The coil can have a zig-zag or spiral form with the outlet for the heated medium close to the reflector surface and the inlet pipe rising up the centre. A suitable angle between the collector surface and the axis of rotation is 45 degrees. The collector can be moved on a mounting so as always to be directed at the sun. Arrangement allows solar energy to be effectively and cheaply utilised.

Description

Device for the utilization of thermal radiation, in particular

Special of the sun The present invention relates to a Device for utilizing thermal radiation, in particular the sun, consisting of from a radiation collector and a receptor system for the collected radiation, which contains a heatable medium for direct or indirect energy transfer. The invention solves the problem of how to heat the heat with simple and cheap means radiation from the sun can be used effectively. The device is according to the invention characterized in that the radiation in a straight line as a radiation collector or curved line or plane collecting reflector is used and that as a receptor in the line or plane at least part of a medium containing the heatable medium Pipeline is arranged. In this way it is avoided on the one hand that the pipeline must be arranged spread over the entire collector surface and it is on the other hand avoided that the manufacturing accuracy of the collective tors too big Requirements are to be made, as is the case, for example, with collectors that use the Should collect radiation in a point that is the case. The invention allows a rotationally symmetrical, in particular funnel-shaped or a collector as a collector use symmetrical, trough-shaped reflector. Such reflectors are. simple and cheap to manufacture; they can be plastic-based in an injection or extrusion process are produced, the plastic parts in a cost-saving manner after a conventional vapor deposition with a heat reflective coating, preferably Metal coating, can be provided. From a funnel designed in this way the solar radiation in the coincident with the symmetry line of the funnel Focal line collected when the symmetry line is aligned with the sun. Corresponding the configuration of the funnel is the energy distribution in the focal line from Rise the funnel base towards the funnel opening, i.e. at the height of the opening of the Funnel achieve their greatest worth. In the context of the invention, the to be irradiated Part of the pipeline containing the heatable medium is designed as a helix, which is arranged coaxially to the axis of rotation of the funnel. That of radiation The exposed part of the pipeline is therefore relatively short in relation to a pipeline system, which would have to fill the entire collector surface. In a special embodiment the maximum funnel width is about 50 to 100 times larger than the diameter of the Pipeline helix.

A particularly useful embodiment of the helix results, when the upper end of the helix (located in the plane of the funnel opening) passes through the Helix opening through (i.e. in the symmetry line of the funnel) to the funnel base is guided downwards. At a sol- chen embodiment expediently the cold medium to be heated is fed to the coil from below. In this area it is initially - corresponding to the mentioned temperature distribution along the direction of the spiral - slowly and then warmed up more and more, so that the Medium is most elevated at the upper end.

From there it is then discharged downwards again, whereby the heat is radiated of the pipe section running inside the helix, in turn, the heating of the downstream medium benefits.

Instead of a funnel-shaped reflector, a symmetrical one can also be used channel-shaped reflector can be used, which - as indicated - very light in one Extrusion process can be produced. When using such a reflector the pipeline containing the heatable medium is expediently shaped formed a zigzag winding and arranged in the plane of symmetry of the channel. As in the case of the funnel, it is useful to place the cold medium at the bottom of the channel to supply, so that an increasing warming, corresponding to the upward too in the case of the gutter increasing temperature distribution in the plane is achieved. With this arrangement, it is advisable to pass the heated medium through a thermally insulated one Lead to the destination.

It is easiest to arrange the funnel or channel walls in such a way that that they coincide with the axis of symmetry or

The plane of symmetry of the funnel or the channel forms an angle of 450. A more uniform temperature distribution in the symmetry axis or plane is achieved when the funnel or channel walls are designed in such a way that they with the symmetry line or plane continuously or in stages to the funnel or. Form increasingly larger angles towards the bottom of the channel.

Depending on the space available, the funnel can also be perpendicular to the base of the cone can be used divided.

To avoid soiling of the sensitive reflector layers it is advisable to use the funnel or

Channel opening with a cover that is permeable to heat radiation to cover. The cover is expediently provided with rotationally symmetrical means respectively.

provided mirror-symmetrical holder of the coil or coil. this can preferably be done in such a way that the holding means in the form of an example Hole-shaped or groove-shaped cavity are formed. As counter-lead members then the funnel or

Provide the bottom of the channel with locking devices, which are assigned to the holding means in the cover and which are preferably are peg-shaped or rail-shaped.

Expediently, care is taken that the outer helical surface forms a smooth cylindrical surface. This can be done when using in cross-section circular pipe material can be achieved in that the coiling resulting indentations are made with a material with good thermal conductivity.

However, it is more expedient to use a profile pipe as the pipe material to use, which has at least one flat surface and to make the spiral so, that this flat surface reaches the outside of the helix. Such a profile can be, for example, a triangular or square profile. About the heat reception To increase the height of the spiral pipeline, it is advisable to blacken the outer surface and / or too rough. For this purpose, good heat-conducting blackening material can be used or the metallic pipe material can be blackened by chemical compounds. Instead of metallic tubes, spirals or coils made of glass or other transparent ones can also be used Material used; it is however, it is then expedient to use a flow-through medium made of or with light or heat absorbing materials (e.g.

black liquid). The heat storage takes place in Special tanks.

As a heatable medium, a liquid is used under normal conditions used at 1000C or below boiling point. The use of water It is especially recommended when using a closed system with a heat exchanger is being worked on.

In such cases it is by design within the primary system not to let any steam develop. For this purpose a Control is used that increases the speed of the water as the water temperature rises increased and in case of danger a cover of the collector or its pivoting out forcing out of radiation. Even when using open systems for generation of steam for use in a steam engine is most conveniently considered to be water Medium used. In such cases, the medium throughput must be based on the available heat orientate. Wherever it is only important to achieve average temperatures, e.g. for heating greenhouses, swimming pools or service water (or winter operation for heating water), can also be used with low-boiling media in closed Systems are worked. The presented designs can be based on simple and cheap ways of replacing used (e.g. corroded) receptors by making one known for replacing light bulbs in reflectors Construction used.

An exemplary embodiment of the invention is illustrated below with reference to a figure explained.

In the figure, 1 denotes a funnel whose Hopper walls 2 enclose an angle of 450 with the axis of rotation 3 of the funnel. the Funnel surfaces are in the area of the funnel tip in the manner of a straight circular truncated cone flattened and form the funnel base 4. The inner walls of the funnel .sind with a provided heat-reflecting layer, which forms the actual reflector 5. For the schematic representation, the incident parallel to the axis of rotation 3 is Heat beam 6 is drawn, which is deflected at the reflector 5 and perpendicular to the helix 7, arranged coaxially to the axis of rotation, falls. The helix is the part of a pipeline in an open or closed system. she owns two connections 8 and 9 beyond the funnel base 4. The connection 8 is for the Supply of the medium to be heated provided, while the connection 9 for discharge of the heated medium is used. As can be easily seen from the figure, the increases Helix with its part of the funnel base 4 adjacent to the feed connection 8 helically up to the opening plane 10 of the funnel and then runs inside the helix down to connection 9.

Thus, the point of the helix with the connection that is furthest from the funnel base is always 9 connected for the heated medium.

The width of the opening plane 10 is denoted by a; the helix diameter with b.

The fitting 11 is intended to hold the entire system, this both on the funnel base and on the two parts of the pipeline that are located located below the funnel base, is arranged. The fitting has a Bearing shell 12, which in turn sits in a ball bearing ring 13. The fitting 11 can be provided with a rod-shaped counterweight 14, whereby it is achieved that the overall arrangement rests weight-balanced in the ball bearings and easily in the correct position for operation can be brought.

The line part is at the point where it enters the inside of the helix dives, provided with a centering pin 15 which engages in a centering hole 16, which is provided in a cover plate 17. The cover plate consists of heat radiation permeable Material (glass) and prevents damage to the reflector layer 5 by.

it keeps dirt, rain, wind and the like away from it. The cover plate can be made totally reflective in such a way that it absorbs incoming solar radiation lets through, but the radiation once let in no longer lets out to the outside. The same effect can be achieved if the coils or coils are totally reflective in this way be trained or a correspondingly trained (glass) lintel (after Type of kerosene lamp lintel) is arranged.

The helix expediently consists of a profile tube with at least a flat surface; this area is arranged in the helix or in the winding package in such a way that that the surface of the pipe part to be irradiated is straight or curved practically uninterrupted surface results. A small part of such a helix is drawn out, with a flat surface of the triangular profile used with 18 is designated.

The adjoining profile surface parts 18 then result in the Helix the closed outer surface 19 of the helix.

The facility can of course be provided several times, e.g. as a larger reflector field, in which case a control for the common Alignment of all individual devices on the radiation source is used.

Summary device for the utilization of thermal radiation, in particular the sun solar collector, consisting of a mirror-symmetrical reflector and Receptor system arranged in the focal line or focal plane. The receptor includes a helix made of pipe material, carried by an energy-transferring liquid medium is flowed through. When using a funnel-shaped reflector, the filament rises from the "cold" connection from the bottom of the funnel, while the "hot" connection over a line leads to the upper end of the helix and runs through the inside of the helix.

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Claims (24)

r patent claims / 1 o to the device for the utilization of thermal radiation, especially the sun, consisting of a radiation collector and a receptor system for the collected radiation, which is a heatable medium for direct or indirect Energy transfer contains, that is, that- as Radiation collector in the radiation in a straight or curved line (13) or plane collecting reflector (5) is used and that as a receptor in the line or level at least part of a pipeline containing the heatable medium (7-8-9) is arranged. 2. Device according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the collector is a rotationally symmetrical, funnel-shaped reflector (1) is used and the part of the pipeline to be irradiated is designed as a helix (7) is, which is arranged coaxially to the axis of rotation (3) of the funnel. 3. Device according to claim 1, d a du r c h g e -k e n n z e i c h n e t that a symmetrical, trough-shaped reflector is used as a collector and the part of the pipeline to be irradiated in the plane of symmetry of the channel as Zigzag winding is formed. 4. Device according to claim 2 or 3, d a you r c h g e k e n n z e i c h e t that the part of the pipeline to be irradiated in the area of the funnel or gutter bottom (4) åe a connection (8, 9) for the heated and the heated Has medium, the pipe section extending from the connection for the medium to be heated from the bottom of the funnel or channel in a spiral or coil shape upwards to the funnel respectively. The part remote from the bottom of the channel is arranged in an ascending manner and the The point of the pipeline furthest away from the funnel or channel bottom takes the shortest route to the Connection (9) is connected for the heated medium. 5. Device according to claim 2 and 4, d a you r c h g e k e n n z e i c h n e t that the point of the helix furthest from the funnel base with the connection (9) for the heated medium is connected by means of a pipe part which passes through the interior of the helix (7) is arranged to run through. 6. Device according to claim 2 or 3, d a d u r c h g e k e n n z e i c h n e t that the funnel resp. Channel walls (2) with the axis or plane of symmetry an angle Form (ap) of 450. 7. Device according to claim 2 or 3, -d a you r c h g e k e n n z e i c h n e t that the funnel resp. Gutter walls are designed in such a way that they coincide with the plane of symmetry continuously or in steps towards the bottom of the funnel or channel, increasing degrees of angle form. 8. Device according to claim 2 or 3, d a you r c h g e k e n n z e i c h n e t that the funnel resp. Channel opening (a; 10) with one that is permeable to thermal radiation Cover (17) is covered. 9. Device according to claim 8, d a d u r c h g e -k e n n z e i c h n e t that the cover with means (16) for rotationally symmetrical or mirror-symmetrical Holder of the coil or coil is provided. 10. Device according to claim 9, d a du r c h g e -k e n n z e i c h - n e t that the point of the pipeline furthest from the funnel or channel bottom with locking means (15) are provided, which are assigned to the support means. 11. Device according to claim 10, d a du r c h g e -k e n n z e i c h n e t that the holding means are in the form of a hole or groove, for example Eohlraumes and the locking means are pin-shaped or rail-shaped. 12. Device according to one of the preceding claims 2 or 3 to 11, d a u r c h e k e n n -z e i c h n e t that at least the one to be irradiated Part of the pipeline has a profile with at least one flat surface (18) and that this surface is arranged in the coil or in the winding package in such a way that -The surface of the pipeline part to be irradiated is a straight or curved practically uninterrupted surface (19) results. 13. Device according to one of claims 1 to 12, d ad u r c h g It is not noted that the part of the pipeline to be irradiated is optimal Heat reception is blackened and / or roughened. 14. Device according to one of the preceding claims, d a you r c h g e k e k e n n n n e i n e t that the pipeline is made of a material that conducts heat well, preferably copper. 15. Device according to claim 13 and 14, d a d u r c h g e k e n n z e i c h n e t that the pipeline by means of a material that conducts heat well or through metallic pipe material connections are blackened. -16. Device according to one of the preceding claims, d a d u r c h g e k e n n n n z e i n e t that as heatable medium a Liquid with a temperature below 1000C or below under normal conditions Boiling point is used. 17. Device according to claim 4, d a d.u r c h g e -k e n n z e i c h n e t that the connections (8, 9) for the medium to be heated in a closed System with heat exchanger are arranged. 18. Device according to claim 5, d a du r c h g e -k e n n z e i c That means that the connections for the medium to be heated are in an open system lie, which on the one hand contains a connection for the supply of the medium and on the other hand, in a medium using the heated, preferably vaporous, medium Facility (steam engine) opens. 19. Device according to one of the preceding claims 2 to 18, d a d u r c h e k e n n n z e i c h n e t that the maximum funnel or channel width (a) about 10 to 100 times, preferably 50 times, larger than the diameter of the Coil or the thickness of the coil. 20. Device according to one of the preceding claims, d a d u r c h g e k e n n n n z e i c h n e t that the part of the Receptor system is replaceable by adding one for replacing incandescent lamps known construction is used in reflectors. 21. Device according to one of the preceding claims 2 or 3 to 12, d u r g e k e n n n z e i c hn e t that at least the to be irradiated Pipeline part consists of glass or other transparent material. 22. Device according to claim 21, d a du r c h g e k e n n z e i c Note that the medium that can be heated is a liquid consisting of or with light or light. heat-absorbing material is used. 23. Device according to claim 8, d a du r c h g e -k e n n z e i c h n e t that the cover with unilaterally acting means for total reflection of Thermal radiation is provided, which allows thermal radiation to escape from the interior prevent the collector, but do not hinder entry. 24. Device according to one of the preceding claims, d a d u r c h g e k e n n n n e i c h n e t that the receptor line unilaterally acting means are assigned to the total reflection of thermal radiation, for example a glass lintel with a vapor-deposited reflective layer that prevents heat radiation from entering the receptor allow, but prevent radiation from the receptor to the outside world.